Citation:

CONOLLY, R. Computational Modeling in Concert with Laboratory Studies: Application to B Cell Differentiation. Presented at Dioxin Toxicity: Mechanisms, Models, & Potential Health Risks, Michigan State University Superfund Program Workshop, East Lansing, MI, October 20 - 21, 2008.

Impact/Purpose:

Remediation is expensive, so accurate prediction of dose-response is important to help control costs. Dose response is a function of biological mechanisms. Computational models of these mechanisms improve the efficiency of research and provide the capability for prediction.

Description:

Remediation is expensive, so accurate prediction of dose-response is important to help control costs. Dose response is a function of biological mechanisms. Computational models of these mechanisms improve the efficiency of research and provide the capability for prediction.

URLs/Downloads:

Computational Modeling in Concert with Laboratory Studies: Application to B Cell Differentiation  (PDF, NA pp,  981  KB,  about PDF)

Record Details:

Record Type:DOCUMENT( PRESENTATION/ SLIDE)

Product Published Date:10/20/2008

Record Last Revised:03/17/2009

OMB Category:Other

Record ID: 202743

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